IEEE 1222-2011

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IEEE Standard for Testing and Performance for All-Dielectric Self-Supporting (ADSS) Fiber Optic Cable for Use on Electric Utility Power Lines

Published By	Publication Date	Number of Pages
IEEE	2011	56

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Description

Revision Standard – Superseded. This standard covers the construction, mechanical, electrical and optical performance, installation guidelines, acceptance criteria, test requirements, and environmental considerations for an all-dielectric self-supporting fiber optic cable designed to be located on overhead electric power utility and telecommunications facilities. This does not include cables used for underground installations.

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PDF Pages	PDF Title
1	IEEE Std 1222-2011 Front Cover
3	Title page
6	Introduction Notice to users Laws and regulations
7	Copyrights Updating of IEEE documents Errata Interpretations Patents
8	Participants
10	Contents
11	1. Overview 1.1 Scope 1.2 Purpose
12	2. Normative references 2.1 Optical fiber standards 2.2 Test standards
13	3. Definitions 3.1 General definitions
14	3.2 Electrical definitions 4. ADSS cable and components 4.1 Description 4.2 Fiber optic cable core
15	4.2.1 Fiber strain allowance 4.2.2 Central strength element 4.2.3 Buffer tube filling compound 4.2.4 Cable core water blocking compound 4.2.5 Binder/tape 4.2.6 Inner jacket 4.3 Optical fibers
16	4.4 Buffer construction 4.4.1 Loose buffer 4.5 Color coding and performance 4.6 Jackets
17	5. ADSS application requirements and recommendations 5.1 Cable design characteristics
18	5.2 Mechanical requirements 5.2.1 Sag and tension performance 5.2.2 Vibration performance 5.3 On-site optical acceptance testing
19	5.4 Environmental pollution 5.5 Low pollution installation sites 5.5.1 High pollution installation sites
20	5.6 Installation 5.7 Hardware 5.8 Packaging
21	5.9 Electrical requirements (electric fields, corona, pollution) 5.9.1 Electric field performance 5.9.2 Corona performance 5.9.3 Pollution performance
22	6. Tests and requirements 6.1 Classification of tests
23	6.2 Procedure for optical measurements and fiber preparation 6.2.1 Optical measurements
24	6.2.2 Fibers to be measured 6.2.3 Cable family definition
25	6.2.4 Design changes 6.3 Retesting 6.4 Optical acceptance test 6.4.1 Attenuation coefficient 6.4.2 Point discontinuity 6.5 Qualification tests 6.5.1 Cable characteristics tests 6.5.1.1 Creep test
26	6.5.1.2 Cable tensile and cyclic stress strain tests
28	6.5.1.3 Strength element stress strain fatigue test 6.5.2 Installation tests 6.5.2.1 Sheave Test
30	6.5.2.2 Crush test 6.5.2.3 Low/high temperature bend test
31	6.5.2.4 Twist test 6.5.2.5 Cable cyclic flexing
32	6.5.2.6 Cable impact 6.5.2.7 Seepage of flooding or filling compound test
33	6.5.3 In-service tests 6.5.3.1 Aeolian vibration test
35	6.5.3.2 Galloping test
37	6.5.3.3 Water ingress test
38	6.5.3.4 Mid-span buffer tube storage test 6.5.3.5 Temperature cycling test
39	6.5.4 Electrical test—Dry band arcing resistance
41	Annex A (informative) Comments on electrical revision
45	B.2.2 Example structure designs that may require non-parallel (3D Electric Field) analysis for location of ADSS cable dead-ends and suspensions
48	Annex D (informative) An overview of pollution model and electrical test
53	Annex E (informative) Dry Band Arcing test procedure
56	Annex F (informative) Bibliography

Additional information

Standard Title	IEEE Standard for Testing and Performance for All-Dielectric Self-Supporting (ADSS) Fiber Optic Cable for Use on Electric Utility Power Lines
Published Code	IEEE
Publication Date	2011
Pages Count	56

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IEEE 1222-2011

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